The Future of Neural Medicine

AI-powered therapies enabled by unprecedented brain bandwidth.

Our implants enables real-time AI processing at the edge.

Our complete system-on-chip technology delivers 100× bandwidth the neural  data of current devices. This massive, stable bandwidth fuels AI models that continuously learn and adapt — transforming how we'll treat neurological conditions. Right now, this platform is available for pre-clinical applications as we work toward regulatory approval for human use.

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WHAT High bandwidth enables

Adaptive algorithms

customized to each patient

Predictive Models

refined with machine learning

Real-Time Control

through deep learning decoders

Big Neural Data

With 65,536 electrodes that provide stable and diverse neural data, we're training AI models that truly understand the brain

Motor Restoration

Movement Through Thought

High-density recording captures fine motor intentions into control commands for a computer or robotic limb. AI decoders translate these signals into control commands for robotic limbs or functional electrical stimulation.

65,536 electrodes capture subtle movement plans

Real-time ML enables natural control

Wireless design for practical daily use

Digital illustration of a right hand with fingers slightly curled and colored in shades of red and peach.

Speech Synthesis

Direct Neural Communication

For ALS and stroke patients, our system decodes intended speech from brain signals. AI models trained on high-bandwidth data enable real-time voice synthesis.

Dense sampling captures phoneme-level detail

Low latency for natural conversation

Continuously improving AI models

Vision Restoration

Sight Through Silicon

Creating functional vision by transmitting information directly to visual cortex. Our channel density matches the resolution needs of meaningful sight.

High-resolution stimulation patterns

Continuous recording to adapt stimulation patterns

Adaptive algorithms optimize perception

Close-up of an abstract stylized eye with a glowing red background.

Two curved red arrows forming a circular loop pointing at each other on a black background.

Precision Neuromodulation

Closed-Loop Brain Therapy

For epilepsy and depression, our real-time recording capabilities provide unprecedented neural data resolution for AI-based decoding, enabling precise and targeted stimulation.

Continuous neural monitoring

Predictive intervention

Personalized stimulation patterns

The Kampto implants can be inserted through a minimally invasive slot or burr hole in the skull and slid directly onto the surface of the brain in the subdural space. The paper thin form factor and lack of brain penetrating electrodes or wires tethering the implant to the skull minimize tissue reactivity and signal degradation over time. The high-resolution, high-data-throughput device has the potential to revolutionize the management of neurological conditions from epilepsy to paralysis.

E. Sander Connolly, M.D.

Chair, Department of Neurosurgery, Columbia University

Kampto is a unique approach for interfacing thousands of electrodes with the cerebral cortex. As a neurosurgeon, I am impressed with the way the implants conform to the cortical surface, matching the contours of gyral anatomy and adhering to the cortex like a piece of wet tissue paper. The scale and bandwidth of Kampto offers enormous potential for compelling BCI applications, from speech decoding to sensory protheses. We look forward to continuing our work with the Kampto system at Penn.

Daniel Yoshor, M.D.

Chair, Department of Neurosurgery, University of Pennsylvania

Path to Patients

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NOW

Preclinical validation

Freely moving animals and early human experiments

FUTURE